The Solaris Secure Shell daemon (sshd) is normally started at boot time when network services are started. The daemon listens for connections from clients. A Solaris Secure Shell session begins when the user runs an ssh, scp, or sftp command. A new sshd daemon is forked for each incoming connection. The forked daemons handle key exchange, encryption, authentication, command execution, and data exchange with the client. These session characteristics are determined by client-side configuration files and server-side configuration files. Command-line arguments can override the settings in the configuration files.
The client and server must authenticate themselves to each other. After successful authentication, the user can execute commands remotely and copy data between hosts.
The server-side behavior of the sshd daemon is controlled by keyword settings in the /etc/ssh/sshd_config file. For example, the sshd_config file controls which types of authentication are permitted for accessing the server. The server-side behavior can also be controlled by the command-line options when the sshd daemon is started.
User's configuration file, ~/.ssh/config
System-wide configuration file, /etc/ssh/ssh_config
For example, a user can override a system-wide configuration Ciphers setting that prefers aes128–ctr by specifying -c aes256–ctr,aes128-ctr,arcfour on the command line. The first cipher, aes256–ctr, is now preferred.
The Solaris Secure Shell protocols, v1 and v2, both support client user/host authentication and server host authentication. Both protocols involve the exchange of session cryptographic keys for the protection of Solaris Secure Shell sessions. Each protocol provides various methods for authentication and key exchange. Some methods are optional. Solaris Secure Shell supports a number of client authentication mechanisms, as shown in Table 19–1. Servers are authenticated by using known host public keys.
For the v1 protocol, Solaris Secure Shell supports user authentication with passwords. The protocol also supports user public keys and authentication with trusted host public keys. Server authentication is done with a host public key. For the v1 protocol, all public keys are RSA keys. Session key exchanges involve the use of an ephemeral server key that is periodically regenerated.
For the v2 protocol, Solaris Secure Shell supports user authentication and generic interactive authentication, which usually involves passwords. The protocol also supports authentication with user public keys and with trusted host public keys. The keys can be RSA or DSA. Session key exchanges consist of Diffie-Hellman ephemeral key exchanges that are signed in the server authentication step. Additionally, Solaris Secure Shell can use GSS credentials for authentication.
To use GSS-API for authentication in Solaris Secure Shell, the server must have GSS-API acceptor credentials and the client must have GSS-API initiator credentials. Support is available for mech_dh and for mech_krb5.
The client has initiator credentials for mech_dh if one of the following has been done:
The keylogin command has been run.
The pam_dhkeys module is used in the pam.conf file.
The client has initiator credentials for mech_krb5 if one of the following has been done:
The kinit command has been run.
The pam_krb5 module is used in the pam.conf file.
For the use of mech_dh in secure RPC, see Chapter 16, Using Authentication Services (Tasks). For the use of mech_krb5, see Chapter 21, Introduction to the Kerberos Service. For more information on mechanisms, see the mech(4) and mech_spnego(5) man pages.
After authentication is complete, the user can use Solaris Secure Shell, generally by requesting a shell or executing a command. Through the ssh command options, the user can make requests. Requests can include allocating a pseudo-tty, forwarding X11 connections or TCP/IP connections, or enabling an ssh-agent authentication program over a secure connection.
The basic components of a user session are as follows:
The user requests a shell or the execution of a command, which begins the session mode.
In this mode, data is sent or received through the terminal on the client side. On the server side, data is sent through the shell or a command.
When data transfer is complete, the user program terminates.
All X11 forwarding and TCP/IP forwarding is stopped, except for those connections that already exist. Existing X11 connections and TCP/IP connections remain open.
The server sends an exit status message to the client. When all connections are closed, such as forwarded ports that had remained open, the client closes the connection to the server. Then, the client exits.